Interpreters
/
abcs
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity

Create basic libab interface.

This commit is contained in:
Danila Fedorin 2018-08-14 01:03:34 -07:00
parent e018f064eb
commit 807c2a9e68
2 changed files with 211 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

12
CMakeLists.txt Normal file
View File

@ -0,0 +1,12 @@
cmake_minimum_required(VERSION 3.1)
project(cmdAbacus)
find_package(PkgConfig REQUIRED)
pkg_check_modules(MPFR REQUIRED mpfr)
set(CMAKE_CXX_STANDARD 11)
add_subdirectory(external/libabacus)
add_executable(cmdAbacus src/main.cpp)
target_link_libraries(cmdAbacus abacus ${MPFR_LIBRARIES})
target_include_directories(cmdAbacus PUBLIC include ${MPFR_INCLUDE_DIRS})
target_compile_options(cmdAbacus PUBLIC ${MPFR_CFLAGS_OTHER})

199
src/main.cpp Normal file
View File

@ -0,0 +1,199 @@
#include <iostream>
#include <map>
#include <mpfr.h>
extern "C" {
#include "libabacus.h"
#include "util.h"
}
// == STRING Type
struct string {
std::string value;
string(std::string&& new_value) : value(std::move(new_value)) {}
string(const std::string& new_value) : value(new_value) {}
};
// MPFR Type
struct number {
mpfr_t value;
number(const char* new_value) {
mpfr_init_set_str(value, new_value, 10, MPFR_RNDN);
}
number(mpfr_t&& new_value) {
std::swap(value, new_value);
}
number* operator+(const number& right) {
mpfr_t new_value;
mpfr_init(new_value);
mpfr_add(new_value, value, right.value, MPFR_RNDN);
return new number(std::move(new_value));
}
number* operator-(const number& right) {
mpfr_t new_value;
mpfr_init(new_value);
mpfr_sub(new_value, value, right.value, MPFR_RNDN);
return new number(std::move(new_value));
}
number* operator*(const number& right) {
mpfr_t new_value;
mpfr_init(new_value);
mpfr_mul(new_value, value, right.value, MPFR_RNDN);
return new number(std::move(new_value));
}
number* operator/(const number& right) {
mpfr_t new_value;
mpfr_init(new_value);
mpfr_div(new_value, value, right.value, MPFR_RNDN);
return new number(std::move(new_value));
}
~number() {
mpfr_clear(value);
}
};
// == Reference Wrapper
class abacus_ref {
private:
libab_ref ref;
public:
abacus_ref();
abacus_ref(void* data, void (*free_func)(void*));
abacus_ref(const abacus_ref& other);
abacus_ref& operator=(const abacus_ref& other);
operator libab_ref*() {
return &ref;
}
~abacus_ref();
};
abacus_ref::abacus_ref() {
libab_ref_null(&ref);
}
abacus_ref::abacus_ref(void* data, void (*free_func)(void*)) {
libab_ref_new(&ref, data, free_func);
}
abacus_ref::abacus_ref(const abacus_ref& other) {
libab_ref_copy(&other.ref, &ref);
}
abacus_ref& abacus_ref::operator=(const abacus_ref& other) {
libab_ref_copy(&other.ref, &ref);
return *this;
}
abacus_ref::~abacus_ref() {
libab_ref_free(&ref);
}
//
// == BASIC FUNCTIONS
#define FUNCTION(name) libab_result function_##name(libab* ab, libab_ref* scope, libab_ref_vec* params, libab_ref* into)
template <typename T>
abacus_ref create_value(libab* ab, T* val);
template <>
abacus_ref create_value<string>(libab* ab, string* param) {
abacus_ref type;
abacus_ref value;
libab_create_type(ab, type, "str");
libab_create_value_raw(ab, value, (void*) param, type);
return value;
}
template <>
abacus_ref create_value<number>(libab* ab, number* param) {
abacus_ref type;
abacus_ref value;
libab_get_type_num(ab, type);
libab_create_value_raw(ab, value, (void*) param, type);
return value;
}
FUNCTION(print_string) {
string* param = (string*) libab_unwrap_param(params, 0);
std::cout << param->value << std::endl;
libab_get_unit_value(ab, into);
return LIBAB_SUCCESS;
}
FUNCTION(to_string_num) {
number* num = (number*) libab_unwrap_param(params, 0);
mpfr_exp_t exp;
char* str = mpfr_get_str(NULL, &exp, 10, 0, num->value, MPFR_RNDN);
abacus_ref value = create_value(ab, new string(std::string(str).insert(exp, 1, '.')));
libab_ref_copy(value, into);
mpfr_free_str(str);
return LIBAB_SUCCESS;
}
#define OPERATOR_FUNCTION(name, op) FUNCTION(name) { \
number* left = (number*) libab_unwrap_param(params, 0); \
number* right = (number*) libab_unwrap_param(params, 1); \
abacus_ref value = create_value(ab, *left op *right); \
libab_ref_copy(value, into); \
return LIBAB_SUCCESS; \
}
OPERATOR_FUNCTION(plus, +)
OPERATOR_FUNCTION(minus, -)
OPERATOR_FUNCTION(times, *)
OPERATOR_FUNCTION(divide, /)
// == Main class
class abacus {
private:
libab ab;
abacus_ref scope;
std::map<std::string, abacus_ref> compiled_types;
libab_basetype basetype_string = { [](void* s) { delete ((string*) s); }, NULL, 0 };
public:
abacus();
void add_function(const std::string& name, libab_function_ptr ptr, const std::string& type);
abacus_ref run(const std::string& code);
~abacus();
};
abacus::abacus() {
auto parse_function = [](const char* s) {
return (void*) new number(s);
};
auto free_function = [](void* num) {
delete ((number*) num);
};
libab_init(&ab, parse_function, free_function);
libab_register_basetype(&ab, "str", &basetype_string);
libab_create_table(&ab, scope, &ab.table);
}
void abacus::add_function(const std::string& name, libab_function_ptr ptr, const std::string& type) {
if(compiled_types.find(type) != compiled_types.end()) {
libab_register_function(&ab, name.c_str(), compiled_types[type], ptr);
} else {
abacus_ref& new_ref = compiled_types[type];
libab_create_type(&ab, new_ref, type.c_str());
libab_register_function(&ab, name.c_str(), new_ref, ptr);
}
}
abacus_ref abacus::run(const std::string& code) {
abacus_ref value;
libab_run_scoped(&ab, code.c_str(), scope, value);
return value;
}
abacus::~abacus() {
libab_free(&ab);
}
int main() {
abacus ab;
ab.add_function("print", function_print_string, "(str)->unit");
ab.add_function("to_string", function_to_string_num, "(num)->str");
ab.add_function("plus", function_plus, "(num, num)->num");
ab.add_function("minus", function_minus, "(num, num)->num");
ab.add_function("times", function_times, "(num, num)->num");
ab.add_function("divide", function_divide, "(num, num)->num");
ab.run("print(to_string(plus(1, times(3, 3))))");
}